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Forced vibrations analysis of a cantilever beam using the vision method

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This article presents an analysis of forced vibrations of a homogeneous cantilever beam using a vision method. Based on measurements, displacements of defined beam points have been determined as a function of time in directions perpendicular to and along the beam axis together with the trajectory of these points in the plane of the beam transverse vibrations. A model describing the displacement of the beam with a moving holder (kinematic excitation) is presented along with formulas defining motion of points in the plane of the beam transverse vibrations, which have been verified experimentally by recording beam vibrations using a specialised vision system.
Słowa kluczowe
Rocznik
Strony
243--254
Opis fizyczny
Bibliogr. 21 poz., rys.
Twórcy
autor
  • AGH University of Science and Technology, Faculty of Mechanical Engineering and Robotics, Kraków, Poland
autor
  • AGH University of Science and Technology, Faculty of Mechanical Engineering and Robotics, Kraków, Poland
autor
  • AGH University of Science and Technology, Faculty of Mechanical Engineering and Robotics, Kraków, Poland
Bibliografia
  • 1. Chen F., Luo W.D., Dale M., Petniunas A., Harwood P., Brown G.M., 2003, High-speed ESPI and related techniques: overview and its application in the automotive industry, Optics and Lasers in Engineering, 40, 5/6, 459-485
  • 2. Freymann R., Honsberg W., Winter F., Steinbichler H., 1996, Holographic modal analysis, [In:] Laser in Research and Engineering, Springer-Verlag, Berlin, 530-542
  • 3. Gawlik J., Ryniewicz A., Sioma A., 2004, The strategies and methods of measurement in multifunctional quality inspection, 8th International Symposium on Measurement and Quality Control in Production, Erlangen, Measure and Quality Control in Production Book Series: VDI Berichte, 1860, 649-662
  • 4. Kohut P., Kurowski P., 2005, The integration of vision based measurement system and modal analysis for detection and localization of damage, 21st International Conference on CAD/CAM, Robotics and Factories of the Future CARS&FOF 2005, Krakow, 391-398
  • 5. Kohut P., Kurowski P., 2009, Application of modal analysis supported by 3D vision-based measurements, Journal of Theoretical and Applied Mechanics, 47, 4, 855-870
  • 6. Kowal J., Sioma A., 2009, Active vision system for 3D product inspection: Learn how to construct three-dimensional vision applications by reviewing the measurements procedures, Control Engineering, 56, 11, 46-48
  • 7. Ma Y., Soatto S., Kostecka J., Sastry S., 2004, An Invitation to 3D Vision, Springer-Verlag, New York
  • 8. Meirovitch L., 1997, Principles and Techniques of Vibrations, Prentice Hall, Englewood Cliffs, New York
  • 9. Meirovitch L., 2001, Fundamentals of Vibrations, McGraw-Hill, New York
  • 10. Moreno D., Barrientos B., P´erez-López C., Mendoza Santoyo F., 2005, Modal vibration analysis of a metal plate by using a laser vibrometer and the POD method, Journal of Optics a: Pure and Applied Optics, 7S356-S363
  • 11. Peeters B., Peeters K., Van der Auweraer H., Olbrechts T., Demeester F., Wens L., 2004, Experimental modal analysis using camera displacement measurements: a feasibility study, Proceedings of the SPIE the International Society for Optical Engineering, 5503, 298-309
  • 12. Romaszko M., Pakuła S., Sapiński B., Snamina J., 2011, Vibration parameters of a sandwich beams with two types of MR fluid, Mechanics and Control, 30, 3, 151-156
  • 13. Sapiński B., Snamina J., Romaszko M., 2010, Identification of model parameters of a sandwich beam incorporating magnetorheological fluid, Vibrations in Physical Systems, 24, 349-354
  • 14. Sapiński B., Snamina J., Romaszko M., 2011, Wyniki badań doświadczalnych drgań wymuszonych belki z cieczą magnetoreologiczną, Czasopismo Techniczne, 108, 2, 215-222
  • 15. Schmidt T., Tyson J., Galanulis K., 2003, Full-field dynamic displacement and strain measurement using advanced 3D image correlation photogrammetry, Experimental Techniques, 27, 3, 41-44
  • 16. Sioma A., 2013, The rope wear analysis with the use of 3D vision system, Control Engineering, 60, 5, 48-49
  • 17. Snamina J., Sapiński B., Romaszko M., 2012a, Vibration parameter analysis of a sandwich cantilever beams with multiple MR fluid segments, Engineering Modeling, 43, 247-254
  • 18. Snamina J., Sapiński B., Wszołek W., Romaszko M., 2012b, Investigation on vibrations of a cantilever beam with magnetorheological fluid by using the acoustic signal, Acta Physica Polonica A, 121, 1-A
  • 19. Sriram P., Hanagud S., Craig J.I., 1992, Mode shape measurement using a scanning laser Doppler vibrometer, The International Journal of Analytical and Experimental Modal Analysis, 7, 3, 169-178
  • 20. Trucco E., Verri A., 1998, Introductory Techniques for 3D Computer, Vision, Prentice- -Hall
  • 21. Van der Auweraer H., Steinbichler H., Haberstok C., Freymann R., Storer D., 2002, Integration of pulsed-laser ESPI with spatial domain modal analysis, Shock and Vibration, 9, 1/2, 29-42
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-4c51989d-c34d-4994-935a-71ebd20575c8
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